Total patient input monitoring
A monitoring system and method for monitoring the total delivery of medication to a patient while in a healthcare facility. The system includes a processor that stores medication delivery data in a data storage unit. The processor also configured to access remote databases to obtain any further data concerning the medication delivery to the patient and store that further data in the data storage unit. The processor is further configured to display the stored data concerning total medication delivery to the patient in selectable formats indicating individual, selectable organizations of the data selectable by the clinician.
The present invention relates generally to medical fluid delivery, and more particularly, to a system and a method for monitoring the total delivery of medical fluids to a patient.
The intravenous infusion of medical fluids into patients is used in the treatment of many different diseases. Depending on the physician, the fluids are delivered to the patient by means of a surgically inserted, main-line catheter or at a peripheral site, such as the patient's arm or leg. Often, due to the patient's condition, it is critical that the prescribed medication dose be administered at the prescribed rates during the designated period of time.
Infusion pumps are often used to administer medications to a patient. The administration may be conducted in small discrete doses or may be given at an essentially continuous rate. Infusion pump therapy may be electronically controlled to deliver precise, metered doses at exactly determined levels, thereby providing a beneficial gradual infusion of medication to the patient. In this manner, the infusion pump is able to mimic the natural process whereby chemical balances are maintained precisely by operating on a continuous time basis.
When a patient undergoes infusion therapy, certain data about the infusion can be acquired and made available to various members of the hospital staff. So that a patient's treatment can be more effectively managed, information related to the medications delivered to a patient should be generated in a relatively short time. However, in many cases, some or all of this data is typically manually recorded on a paper chart that is affixed to the patient's bed. A disadvantage of manual recordation of such data is that it is slow and tedious. Consequently, such data is susceptible to later misinterpretation because of illegibility, incompleteness, and may even be mislocated because of the sheer volume of data being recorded and tracked. Human error contributes greatly to such disadvantages. Thus, it would be desirable to provide for automatic recordation of data related to therapeutic fluid delivery during an infusion.
Information regarding a patient's past infusion therapy may be absolutely essential for later effective and timely treatment. Unfortunately, this essential data may not be easily retrievable from the patient's records. The necessary data may be overlooked for the reasons mentioned above; i.e., it may have been mistranscribed, or entered in an incorrect location on the patient's paper chart, as well as other reasons. In other circumstances, because of the urgency associated with the patient's condition, the medical team may not have time to search through a patient's paper chart or file for certain past therapy data. In any case, failure to easily access such data may result in an inability to obtain the benefit of such prior knowledge concerning past medication delivery when developing or assessing the patient's present and future treatment plan.
In addition, a patient's treatment plan may consist of a series of instructions that may change during the course of treatment. In a manually recorded system, such as a paper chart attached to a patient's bed, it is more difficult to ensure that all details of a treatment plan are recorded; including changes to instructions occurring during treatment. It is also more difficult to track such manually recorded data. Even missing only portions of a patient's prior treatment can give an incomplete picture and lead to a less effective future treatment strategy. As a result, such data may not be available later when further treatment is being assessed.
If the medical team cannot access essential data about a patient in a timely and complete manner, the quality and effectiveness of the care and treatment of the patient may be compromised. Therefore, it would be beneficial if all data obtained from and about a patient in a hospital were immediately accessible to various members of the medical team in accordance with the function performed by those members. There would be a further benefit if those members could select certain data and format such data as desired so that even more effective data usage would result.
Additionally, many hospitals have changed the way in which patients are charged for services. In the past, patients were typically charged on the basis of the number of days hospitalized. With recent changes in health care management and practice, patients are now more likely to be charged on the basis of actual treatments received. Greater efficiency in the treatment of patients is emphasized. Hospitals scrutinize the effect of a treatment on a patient closely, with increased monitoring, observation, and recordation of the patient's responses to treatment. The increased amount of data that must be recorded about a patient makes the existing manual entry, paper chart system extremely cumbersome and time consuming for the medical team. At the same time, accuracy is desirable both for the patient and the healthcare facility for the reasons discussed.
Healthcare facilities are also faced with a competitive environment in which they must constantly remain efficient and yet simultaneously improve patient care. Health care deliverers face increased complexity in the types of treatment and services available, and must also provide these complex treatments and services efficiently. This places a premium on the facility's ability to provide complex treatment while maintaining complete and detailed medical records for each patient. Burdensome recording systems for the administration of medications and usage of supplies involved in a patient's treatment may result in decreased accuracy and thus be undesirable in view of today's more complex treatments.
Hence, those skilled in the art have recognized a need for an improved system and method by which the total patient input of medications can be monitored at any time and can be displayed for immediate consideration. Those skilled in the art have also recognized a need for the ability to format the displayed total patient medication data in various selectable ways depending on the needs of the particular healthcare personnel considering the data. Such a system and method would assist healthcare facilities to provide higher quality patient care. More accurate medication data about the patient would be made available thereby increasing the ability to select more efficient present and future treatment programs. The present invention satisfies these and other needs.
INVENTION SUMMARYBriefly and in general terms, the subject invention is directed to a monitoring system for monitoring the total delivery of medication to a patient while that patient resides in a healthcare facility. The system is patient-based rather than being confined to a single infusion pump or single infusion pump group. The system accumulates patient data related to the delivery of medication, including infusions of fluids, oral delivery of fluids and pills, and other deliveries of medications, and permits an operator to format that data in various ways for display. Selectable preprogrammed data formats are available or the operator may format the data in other ways as desired by the nurse or operator of the monitoring system.
In accordance with certain aspects of the invention, there is provided a system for monitoring medication delivery to a patient while the patient is in a healthcare facility, the monitoring system comprising a memory in which is stored identification data about the patient and medication delivery data about the patient a display on which identification data and medication delivery data about a patient is displayed and a processor that receives patient identification data and medication delivery data about the patient from multiple sources in the healthcare facility while the patient is in the healthcare facility and stores the identification data and medication delivery data in the memory wherein the processor also retrieves the patient identification data and medication delivery data from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
In accordance with more detailed aspects, the system further comprises an infusion pump in which is located the memory, the display, and the processor, and in which the processor receives the medication delivery data from the infusion pump. Further, the processor also compares infusion programming commands directed to the infusion pump to a drug library having predetermined limits and provides an alert if a received infusion programming command is outside of a limit.
In other more detailed aspects, the system further comprises a controller connected to an infusion pump, the memory, the display, and the processor being located in the controller. The processor receives the medication delivery data from the infusion pump. The processor also compares infusion programming commands directed to the infusion pump to a drug library having predetermined limits and provides an alert if a received infusion programming command is outside of a limit.
In further detailed aspects, the memory also stores vital signs data about the patient, the display also displays vital signs data about the patient, and the processor also receives patient vital signs data while the patient is in the healthcare facility and stores the identification data and medication delivery data in the memory, wherein the processor also retrieves the vital signs data from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display. The medication delivery data received by the processor comprises infusion delivery data for infusions in progress, the processor stores the delivery data for infusions in progress in the memory, and the processor also retrieves the delivery data for infusions in progress from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
In yet other detailed aspects, the processor receives medication delivery data from a source through a wireless connection. One of the multiple data sources from which the processor receives medication delivery data is a portable data device. The processor receives medication delivery data from the portable data device through a wireless connection. The portable data device receives medication delivery data from an infusion pump and transfers that medication delivery data to the processor. The processor also retrieves patient identification data and medication delivery data from the memory and transmits the retrieved data to the portable data device. One of the multiple data sources from which the processor receives medication delivery data is a server.
In yet further aspects, the processor formats retrieved medication delivery data to display medication delivered to the patient organized by time. The processor formats retrieved medication delivery data to display medication delivered to the patient organized by at least one of hour, shift, and day. In another aspect, the processor formats retrieved medication delivery data to display medication delivered to the patient organized by unit of measure. The processor formats retrieved medication delivery data to display medication delivered to the patient organized by at least one of milligrams, and micrograms. The processor formats retrieved data in accordance with predetermined, selectable data formats. The processor formats retrieved data in accordance with an operator-created, non-preprogrammed data format.
In yet a further aspect, the processor compares future medication delivery data to past and present medication delivery data, compares such future medication data to a medication limits database, and provides an alert on the display if an inconsistency is indicated by the comparison.
In accordance with method aspects of the invention, there is provided a method for monitoring medication delivery to a patient while the patient is in a healthcare facility, the method comprising receiving patient identification data and medication delivery data about the patient from multiple sources in the healthcare facility while the patient is in the healthcare facility, storing identification data and medication delivery data about the patient, retrieving the stored patient identification data and medication delivery data in response to a request therefore, formatting the retrieved data in accordance with a format request, and displaying the formatted identification data and medication delivery data about the patient.
In yet a more detailed aspect, the total delivery or input of fluids to the patient is monitored, and in a further aspect, the total output of fluids by the patient is monitored and a net fluid total is provided.
These and other advantages of the invention will become apparent from the following more detailed description when taken in conjunction with the accompanying drawings of illustrative embodiments.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring now to the drawings in more detail in which like numerals used across several views indicate like or corresponding elements, there is shown in
The monitoring system 10 also includes an input device 20 for allowing a clinician to access the monitoring system. Such an input device 20 may be a keypad, keyboard, mouse, touch pad, touch screen, or other means of entering data so that a clinician may input patient treatment data or specific commands for instructing the monitoring system. The input device may be stationary, located always at the processor, display, or other equipment, or may be mobile with a wireless or wired connection to the processor 14. Examples include personal digital assistants (“PDAs”), laptop computers or other mobile computers, stationary computers, multi-function cellular telephones, and other devices. A printer 22 may also be included in the monitoring system 10 for generating hard copy reports also relating to the total patient medication input. The monitoring system 10 may also include an infusion pump 24 as a means for delivering medication to the patient in a predetermined, controlled manner, or other medical instrument or device involved in the care or treatment of a patient. Multiple instruments or devices may be involved, such as multiple infusion pumps infusing multiple medical fluids into a patient at the same time, as an example.
Referring now to
After the patient 12 is admitted to the healthcare facility, the patient is typically examined, evaluated by a physician, and a course of treatment or care is prescribed. The physician prescribes the course of treatment by preparing an order which may request an administration of a particular medication to the patient. Typically, the request is made by filling in a form or writing the order on a slip of paper to be submitted to the hospital's pharmacy. Once the order is received by the pharmacy, it is evaluated and processed. The pharmacy then prepares the medication according to the requirements of the physician and packages it in a container 26, such as that shown in
As in the last case, a barcode 29 is used in
Generally, the medication is delivered to the appropriate care-giving unit where a nurse administers the medication to the appropriate patient at the scheduled time. Referring again to
Once the patient is identified, the monitoring system 10 will perform a verification process before allowing the medication to be administered. The monitoring system prompts the nurse to enter medication delivery data regarding the medication to be delivered and the appropriate medication delivery parameters such as those found on the label 28 of the medication container 26. Such data may be entered manually by the nurse, or in the case of machine-readable data, such as a barcode, the data may be scanned in by use of a barcode reader or an RFID reader or interrogator, depending on the data storage device or devices used. For certain medications, the nurse may be prompted to enter data descriptive of a selected patient parameter or parameters, such as a current vital sign. For example, the nurse may be prompted to measure and enter a value for the patient's blood pressure before administering the medication.
Where the medication is to be delivered using, for example, an infusion pump 24, the nurse first inputs into the monitoring system 10 the appropriate configuration parameters for the infusion. Such parameters may be found on the label 28 that is affixed to the medication container 26 and can be read in with a barcode reader (not shown) such as by scanning the barcode. Alternatively, the appropriate configuration parameters may already be stored in the data storage unit 16. In such a case, the nurse may access the data storage unit via the input device 20 and view the parameters on the display 18. Upon visual verification, the nurse may set the parameters to configure the pump wherein the parameters are communicated from the data storage unit to the pump. In another approach, the nurse may manually enter the parameters at the pump using a keypad at the pump or by other means. Once the infusion pump is configured, the nurse may start the infusion either by pressing an appropriate control on the infusion pump or inputting a command in the input device. Upon start of the infusion, the pump transmits a signal to the processor 14 marking the start of the infusion. The processor then logs this information into the data storage unit. Information may be logged continually, such as rate changes, end of infusion, and other information.
The monitoring system 10 may also include a drug library database stored in the data storage unit 16 having ranges of acceptable values for various operating parameters of the infusion pump 24 and/or dosages of the medication. The drug library database would be accessible by the processor 14. Additionally, the drug library database may include various data sets of acceptable operating parameters linked to the particular medication being delivered. For example, data sets for NICU, CCU, General Surgery, and others. In this embodiment, the processor compares the operating parameter values for the particular medication to the medication database range of acceptable values. If the entered value for the operating parameter is within the range of accepted values and/or the dosage of the medication is within accepted values, the processor will permit the parameter to be entered into the infusion pump and the infusion started. If not, an alert is provided to the operator. The nurse is then prompted to correct the discrepancy by entering the correct data. In the event the nurse determines that the discrepancy cannot be corrected but that the discrepancy is minor and will not affect the accuracy or safety of the delivery of the medication, the nurse may override the alert. However, if the discrepancy is not minor and cannot be overridden, the nurse may not give the medication to the patient at these parameters because the processor will not permit entry of the offending operating parameter or parameters into the pump and a reevaluation of the medication treatment will be necessary.
In the case of orally-administered medication, such as pills, or other form of delivery of medication, the clinician likewise indicates to the monitoring system 10, through the processor 14 or by other means, the same identification of medication, medication particulars such as dosage, and any other information required by the system. These may be entered manually or through a scanning process, such as a barcode or RFID, or other wired or wireless data transfer process. The monitoring system may also check these medications against a drug library to identify any irregularities in the medication to be administered and indicate alarms if any irregularity is found.
The processor 14 verifies that the right medication is being given to the right patient 12 in the right dose and at the right time by evaluating the known patient data versus the known medication delivery data. Additionally, the identity of the nurse dispensing the medication may be required by the processor and entered into the input device 20 by the nurse before any administration may take place. This permits verification that an authorized person is administering the medication. The nurse's identity is recorded in the data storage unit 16 for possible future reference. Entry of the nurse's data may also be performed as described above. It may be entered manually or in the case of machine-readable nurse data, such as that contained in a personal badge having a barcode, RFID device, or other, it may be scanned in through an appropriate reader, or other wired or wireless data transfer process.
The pump, processor, data storage unit, data input device, and display may take different forms. In one embodiment, a module controller such as that shown in U.S. Pat. No. 5,713,856 to Eggers is used. U.S. Pat. No. 5,713,856 to Eggers is incorporated herein by reference. The module controller, or controller, includes a processor, memory, communications devices, and other associated equipment. Referring now to
In the above embodiment of
Referring again to
In a further aspect in accordance with the invention, the processor 14 is also programmed to format the medication delivery data related to the patient 12 in a plurality of selectable formats according to instructions received from the input device 20 for presentation on the display 18. As used herein, “format” is used in its broadest sense; that is, “format” refers to any method of arranging information that is to be stored or displayed. In one embodiment, preprogrammed formats may be selected by the operator of the display. For example, the processor is preprogrammed to display total medication delivered in a format based on time. In such case, the display may be formatted by total medication delivered by every hour, every shift, or every day. Such data may also be formatted by unit of time in other ways, such as volume infused per clinician work shift. The nurse or other operator also may use the system to display amounts of medication delivered during a specific time frame in the past. This data is helpful in monitoring certain medications that cannot be given within a predetermined time frame of administration of another medication. In another embodiment, the processor is programmed to display total medication delivered organized by unit of measure. In one example, the display may be organized or formatted by micrograms, milligrams or by grams. The data may be formatted to be organized by specific medication in other ways. In a further embodiment, the processor is also programmed to permit an operator such as a nurse to create a non-preprogrammed data format with the input device. Patient medication delivery data may then be presented in any format as programmed by the operator into the processor.
As an example of the type of formats of total patient medication, reference is now made to
The above features permit a nurse to select any format of data pertaining to a patient's total medication delivery for the entire stay at the healthcare facility and evaluate that data in view of a past, present, or future medication delivery. Referring also to
The monitoring system 10 is also connected to a printer 22 to enable a nurse or other operator to create a written record of the total medication deliveries to the patient 12. Because of the versatility in formatting the data about a patient's total medication delivery, the nurse may create various displays or printed reports for use in ensuring proper medication of the patient. The monitoring system 10 may also be programmed to operate automatically to display and/or print reports of a standard format at predetermined intervals as determined by the needs of the particular nurse or healthcare facility. For example, predetermined displays of total patient medication delivery data may be displayed at times such as at the end of an infusion and printed.
In conjunction with the processor 14 being programmed to display all medication delivery data for the patient 12 while in the healthcare facility obtained from the infusion pump 24 with which it is associated, the processor is also programmed to retrieve medication delivery data related to the patient from other memory devices in the healthcare facility in accordance with another aspect of the invention. For example, if the processor is a part of the infusion pump 24 or is in communication with that pump such as is shown in
In further detail, the monitoring system 10 may be configured to access a remote database 76, as shown in
The process of gathering medication delivery data about a patient 12 may be automated. For example, as soon as a patient is associated with a pump 24, the processor 14 also associated with that pump may request medication delivery data from all other devices on the network that the processor is on. This medication delivery data may then be stored in the data storage unit 16 associated with that processor and pump for use by the operator of that pump on the patient.
Thus, when deemed necessary by the processor 14 or a clinician to deliver proper treatment, the monitoring system 10 will access patient 12 medication data beyond what is found in its own data storage unit 16, format that data as requested by the clinician, and evaluate the data retrieved from remote databases. Evaluation by the processor 14 may occur in accordance with a drug library-type database and program where infusion parameters are compared to acceptable limits in the drug library-type database. For example, an infusion rate for a particular drug is compared against such acceptable limits in the drug library and if the programmed infusion rate is higher than the limit in the drug library, an alarm is provided. As another example, allergies of the patient are compared to information in the database and if a drug is not suitable for a patient with such allergies, an alarm will be provided should a clinician attempt to infuse such drug. By means such as a local area network (LAN) cable 32, or a wide area network, the monitoring system 10 may collect any necessary patient medication history information from the remote database 76 thus eliminating the need for the clinician to manually input such data into the monitoring system 10. The network with which the pumps or processors are associated may be wired or wireless.
In the case where no network exists in a healthcare facility, the monitoring system 10, as shown in
Not only is the portable data storage unit 100 capable of receiving and storing data, it will also respond to requests from monitoring systems for data concerning a patient that a monitoring system processor may be serving at the time. It will transmit that data to the requesting monitoring system. Thus, the portable data storage unit effectively acts as a network that is available when physically present near the processor of interest.
This is shown in block diagram form in
Referring now to
In another embodiment, the first monitoring system 10 and the second monitoring system 122 may be connected to one another, either through wired or wireless direct connection, or through an intermediate data transfer apparatus, such as a server, the Internet, a local area network (LAN), a wide area network (WAN), Ethernet, or other, allowing the transfer of data from one system to the other.
Although the invention has been described in terms of preferred structures, it will be apparent to one skilled in the art that obvious modifications may be made without departing from the invention. It is intended that all such modifications are included in the spirit and scope of the invention as defined herein and protected by the appended claims.
Claims
1. A system for monitoring medication delivery to a patient while the patient is in a healthcare facility, the monitoring system comprising:
- a memory in which is stored identification data about the patient and medication delivery data about the patient;
- a display on which identification data and medication delivery data about a patient is displayed; and
- a processor that receives patient identification data and medication delivery data about the patient from multiple sources in the healthcare facility while the patient is in the healthcare facility and stores the identification data and medication delivery data in the memory; and
- wherein the processor also retrieves the patient identification data and medication delivery data from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
2. The system of claim 1 further comprising an infusion pump in which is located the memory, the display, and the processor.
3. The system of claim 2 wherein the processor receives the medication delivery data from the infusion pump.
4. The system of claim 2 wherein the processor also compares infusion programming commands directed to the infusion pump to a drug library having predetermined limits and provides an alert if a received infusion programming command is outside of a limit.
5. The system of claim 1 further comprising a controller connected to an infusion pump, the memory, the display, and the processor being located in the controller.
6. The system of claim 5 wherein the processor receives the medication delivery data from the infusion pump.
7. The system of claim 5 wherein the processor also compares infusion programming commands directed to the infusion pump to a drug library having predetermined limits and provides an alert if a received infusion programming command is outside of a limit.
8. The system of claim 1 wherein:
- the memory also stores vital signs data about the patient;
- the display also displays vital signs data about the patient; and
- the processor also receives patient vital signs data while the patient is in the healthcare facility and stores the identification data and medication delivery data in the memory; and
- wherein the processor also retrieves the vital signs data from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
9. The system of claim 1 wherein:
- the medication delivery data received by the processor comprises infusion delivery data for infusions in progress;
- the processor stores the delivery data for infusions in progress in the memory; and
- the processor also retrieves the delivery data for infusions in progress from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
10. The system of claim 1 wherein the processor receives medication delivery data from a source through a wireless connection.
11. The system of claim 1 wherein one of the multiple data sources from which the processor receives medication delivery data is a portable data device.
12. The system of claim 11 wherein the processor receives medication delivery data from the portable data device through a wireless connection.
13. The system of claim 11 wherein the portable data device receives medication delivery data from an infusion pump and transfers that medication delivery data to the processor.
14. The system of claim 13 wherein the processor also retrieves patient identification data and medication delivery data from the memory and transmits the retrieved data to the portable data device.
15. The system of claim 1 wherein one of the multiple data sources from which the processor receives medication delivery data is a server.
16. The system of claim 1 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by time.
17. The system of claim 16 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by at least one of:
- hour;
- shift; and
- day.
18. The system of claim 1 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by unit of measure.
19. The system of claim 1 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by at least one of:
- milligrams; and
- micrograms.
20. The system of claim 1 wherein the processor formats retrieved data in accordance with predetermined, selectable data formats.
21. The system of claim 1 wherein the processor formats retrieved data in accordance with an operator-created, non-preprogrammed data format.
22. The system of claim 1 wherein the processor compares future medication delivery data to past and present medication delivery data, compares such future medication data to a medication limits database, and provides an alert on the display if an inconsistency is indicated by the comparison.
23. A system for monitoring medication delivery to a patient while the patient is in a healthcare facility, the monitoring system comprising:
- a memory in which is stored identification data about the patient, medication delivery data about the patient, data for infusions in progress, and vital signs data about the patient;
- a display on which identification data, medication delivery data, and vital signs data about the patient is displayed; and
- a processor that receives patient identification data, medication delivery data, and patient vital signs data about the patient, including infusion delivery data for infusions in progress, from multiple sources in the healthcare facility while the patient is in the healthcare facility and stores the identification data and medication delivery data in the memory; and
- wherein the processor also retrieves the patient identification data, the medication delivery data, the delivery data for infusions in progress, and the vital signs data from the memory in response to a request therefor, formats the retrieved data in accordance with a format request, and displays the retrieved and formatted data on the display.
24. The system of claim 23 wherein one of the multiple data sources from which the processor receives medication delivery data is a portable data device.
25. The system of claim 24 wherein the processor receives medication delivery data from the portable data device through a wireless connection.
26. The system of claim 24 wherein the portable data device receives medication delivery data from an infusion pump and transfers that medication delivery data to the processor.
27. The system of claim 24 wherein the processor also retrieves patient identification data and medication delivery data from the memory and transmits the retrieved data to the portable data device.
28. The system of claim 23 wherein one of the multiple data sources from which the processor receives medication delivery data is a server.
29. The system of claim 23 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by time.
30. The system of claim 23 wherein the processor formats retrieved medication delivery data to display medication delivered to the patient organized by unit of measure.
31. A method for monitoring medication delivery to a patient while the patient is in a healthcare facility, the method comprising:
- receiving patient identification data and medication delivery data about the patient from multiple sources in the healthcare facility while the patient is in the healthcare facility;
- storing identification data and medication delivery data about the patient;
- retrieving the stored patient identification data and medication delivery data in response to a request therefore;
- formatting the retrieved data in accordance with a format request; and
- displaying the formatted identification data and medication delivery data about the patient.
32. The method of claim 31 wherein:
- the step of receiving further comprises receiving vital signs data about the patient;
- the step of storing further comprises storing vital signs data about the patient; and
- the step of retrieving further comprises retrieving the stored vital signs data in response to a request therefor.
33. The method of claim 31 wherein:
- the step of receiving further comprises receiving delivery data for infusions in progress;
- the step of storing further comprises storing delivery data for infusions in progress;
- the step of retrieving further comprises retrieving stored delivery data for infusion in progress; and
- the step of formatting further comprises formatting delivery data for infusions in progress; and
- the step of displaying further includes displaying the formatted data for infusions in progress.
34. The method of claim 31 wherein the step of receiving further comprises receiving medication delivery data from a source through a wireless connection.
35. The method of claim 31 wherein the step of receiving data from multiple data sources further comprises receiving medication delivery data from a portable data device.
36. The method of claim 35 wherein the step of receiving data from a portable data device further comprises receiving medication delivery data from the portable data device through a wireless connection.
37 The method of claim 31 further comprising the steps of:
- receiving medication delivery data from an infusion pump by the portable data device; and
- transferring that medication delivery data from the portable data device to the processor.
38. The method of claim 37 further comprising:
- retrieving patient identification data and medication delivery data from the memory; and
- transmitting the retrieved data to the portable data device.
39. The method of claim 31 wherein the step of receiving data from multiple data sources further comprises receiving medication delivery data from a server.
40. The method of claim 31 wherein the step of formatting further comprises formatting the retrieved medication delivery data organized by time.
41. The method of claim 31 wherein the step of formatting further comprises formatting the retrieved medication delivery data organized by unit of measure.
42. The method of claim 31 wherein the step of formatting further comprises formatting retrieved data in accordance with predetermined, selectable data formats.
43. The method of claim 31 wherein the step of formatting further comprises formatting retrieved data in accordance with an operator-created, non-preprogrammed data format.
44. The method of claim 31 further comprising:
- comparing future medication delivery data to past and present medication delivery data;
- comparing such future medication data to a medication limits database, and providing an alert on the display if an inconsistency is indicated by the comparison.
Type: Application
Filed: Nov 29, 2004
Publication Date: Jun 1, 2006
Inventor: Claudia Russell (San Diego, CA)
Application Number: 10/999,095
International Classification: A61M 37/00 (20060101);